Abstract
Elastic scattering angular distributions for the 9Be+51V system were measured at three near Coulomb barrier energies, Elab = 16.35, 17.44 and 18.53 MeV. The data were analyzed by using a Semimicroscopic Optical Model. This combines a microscopic calculation of the mean-field double folding potential and a phenomenological construction of the dynamical polarization potential. The calculations reproduced the data very well and the total reaction cross sections were also calculated.
Highlights
Nuclear reactions induced by weakly bound projectiles have attracted much attention in the last few decades
Elastic scattering angular distributions for 9Be+51V system were measured at bombarding energies Elab = 16.35, 17.44 and 18.53 MeV
By doing a proper optical model analysis, the corresponding total reaction cross sections were obtained and compared with experimental results previously reported for other systems
Summary
Nuclear reactions induced by weakly bound projectiles have attracted much attention in the last few decades. The 9Be nucleus, with a separation energy of 1.57 MeV, is an interesting case study. Angular distributions for the 9Be+51V system are measured and analyzed. A Semimicroscopic Optical Model, which combines microscopic calculations of the mean-field double folding potential (DFP) and a phenomenological construction of the dynamical polarization potential [1, 2], is used in the
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